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Retinal blood vessel segmentation using fully convolutional network with transfer learning.基于迁移学习的全卷积网络的视网膜血管分割。
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Segmenting Retinal Blood Vessels With Deep Neural Networks.基于深度神经网络的视网膜血管分割。
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Automated Vessel Segmentation Using Infinite Perimeter Active Contour Model with Hybrid Region Information with Application to Retinal Images.基于混合区域信息的无限边界主动轮廓模型在视网膜图像中的自动血管分割应用。
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Iterative Vessel Segmentation of Fundus Images.眼底图像的迭代血管分割
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Learning fully-connected CRFs for blood vessel segmentation in retinal images.学习用于视网膜图像血管分割的全连接条件随机场
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使用具有多尺度输入的密集U型网络进行视网膜血管分割。

Retinal vessel segmentation using dense U-net with multiscale inputs.

作者信息

Yue Kejuan, Zou Beiji, Chen Zailiang, Liu Qing

机构信息

Central South University, School of Computer Science and Engineering, Changsha, China.

Central South University, Engineering Research Center of Machine Vision and Intelligent Medicine, Changsha, China.

出版信息

J Med Imaging (Bellingham). 2019 Jul;6(3):034004. doi: 10.1117/1.JMI.6.3.034004. Epub 2019 Sep 27.

DOI:10.1117/1.JMI.6.3.034004
PMID:31572745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6763760/
Abstract

A color fundus image is an image of the inner wall of the eyeball taken with a fundus camera. Doctors can observe retinal vessel changes in the image, and these changes can be used to diagnose many serious diseases such as atherosclerosis, glaucoma, and age-related macular degeneration. Automated segmentation of retinal vessels can facilitate more efficient diagnosis of these diseases. We propose an improved U-net architecture to segment retinal vessels. Multiscale input layer and dense block are introduced into the conventional U-net, so that the network can make use of richer spatial context information. The proposed method is evaluated on the public dataset DRIVE, achieving 0.8199 in sensitivity and 0.9561 in accuracy. Especially for thin blood vessels, which are difficult to detect because of their low contrast with the background pixels, the segmentation results have been improved.

摘要

彩色眼底图像是通过眼底相机拍摄的眼球内壁图像。医生可以在图像中观察视网膜血管的变化,这些变化可用于诊断许多严重疾病,如动脉粥样硬化、青光眼和年龄相关性黄斑变性。视网膜血管的自动分割可以促进对这些疾病更有效的诊断。我们提出了一种改进的U-net架构来分割视网膜血管。将多尺度输入层和密集块引入传统的U-net中,以便网络能够利用更丰富的空间上下文信息。所提出的方法在公共数据集DRIVE上进行了评估,灵敏度达到0.8199,准确率达到0.9561。特别是对于由于与背景像素对比度低而难以检测的细血管,分割结果得到了改善。